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Trusting Dose Deformation and Accumulation for GYN Brachytherapy

L Poplawski

L Poplawski1*, T Li2 , J Chino2 , O Craciunescu2 , (1) Duke University Medical Physics Graduate Program, (2) Duke University Medical Ctr., Durham, NC


SU-E-J-105 (Sunday, July 12, 2015) 3:00 PM - 6:00 PM Room: Exhibit Hall

In brachytherapy, structures surrounding the target have the potential to move between treatments and receive unknown dose. Deformable image registration could overcome challenges through dose accumulation. This study uses two possible deformable dose summation techniques and compares the results to point dose summation currently performed in clinic.

Data for ten patients treated with a Syed template was imported into the MIM software (Cleveland, OH). The deformable registration was applied to structures by masking other image data to a single intensity. The registration flow consisted of the following steps: 1) mask CTs so that each of the structures-of-interest had one unique intensity; 2) perform applicator - based rigid registration; 3) Perform deformable registration; 4) Refine registration by changing local alignments manually; 5) Repeat steps 1 to 3 until desired structure adequately deformed; 5) Transfer each deformed contours to the first CT. The deformed structure accuracy was determined by a dice similarity coefficient (DSC) comparison with the first fraction. Two dose summation techniques were investigated: a deformation and recalculation on the structure; and a dose deformation and accumulation method. Point doses were used as a comparison value.

The Syed deformations have DSC ranging from 0.53 to 0.97 and 0.75 and 0.95 for the bladder and rectum, respectively. For the bladder, contour deformation addition ranged from -34.8% to 0.98% and dose deformation accumulation ranged from -35% to 29.3% difference from clinical calculations. For the rectum, contour deformation addition ranged from -5.2% to 16.9% and the dose deformation accumulation ranged from -29.1% to 15.3% change.

Deforming dose for summation leads to different volumetric doses than when dose is recalculated on deformed structures, raising concerns about the accuracy of the deformed dose. DSC alone cannot be used to establish the accuracy of a deformation for brachy dose summation purpose.

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